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//
// Copyright 2011 Ettus Research LLC
//
// This program is free software: you can redistribute it and/or modify
// it under the terms of the GNU General Public License as published by
// the Free Software Foundation, either version 3 of the License, or
// (at your option) any later version.
//
// This program is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
// GNU General Public License for more details.
//
// You should have received a copy of the GNU General Public License
// along with this program. If not, see <http://www.gnu.org/licenses/>.
//
module ram_2port_mixed_width
(input clk16,
input en16,
input we16,
input [10:0] addr16,
input [15:0] di16,
output [15:0] do16,
input clk32,
input en32,
input we32,
input [9:0] addr32,
input [31:0] di32,
output [31:0] do32);
wire en32a = en32 & ~addr32[9];
wire en32b = en32 & addr32[9];
wire en16a = en16 & ~addr16[10];
wire en16b = en16 & addr16[10];
wire [31:0] do32a, do32b;
wire [15:0] do16a, do16b;
assign do32 = addr32[9] ? do32b : do32a;
assign do16 = addr16[10] ? do16b : do16a;
RAMB16BWE_S36_S18 #(.INIT_A(36'h000000000),
.INIT_B(18'h00000),
.SIM_COLLISION_CHECK("ALL"), // "NONE", "WARNING_ONLY", "GENERATE_X_ONLY", "ALL"
.SRVAL_A(36'h000000000), // Port A output value upon SSR assertion
.SRVAL_B(18'h00000), // Port B output value upon SSR assertion
.WRITE_MODE_A("WRITE_FIRST"), // WRITE_FIRST, READ_FIRST or NO_CHANGE
.WRITE_MODE_B("WRITE_FIRST") // WRITE_FIRST, READ_FIRST or NO_CHANGE
)
RAMB16BWE_S36_S18_0 (.DOA(do32a), // Port A 32-bit Data Output
.DOB(do16a), // Port B 16-bit Data Output
.DOPA(), // Port A 4-bit Parity Output
.DOPB(), // Port B 2-bit Parity Output
.ADDRA(addr32[8:0]), // Port A 9-bit Address Input
.ADDRB(addr16[9:0]), // Port B 10-bit Address Input
.CLKA(clk32), // Port A 1-bit Clock
.CLKB(clk16), // Port B 1-bit Clock
.DIA(di32), // Port A 32-bit Data Input
.DIB(di16), // Port B 16-bit Data Input
.DIPA(0), // Port A 4-bit parity Input
.DIPB(0), // Port-B 2-bit parity Input
.ENA(en32a), // Port A 1-bit RAM Enable Input
.ENB(en16a), // Port B 1-bit RAM Enable Input
.SSRA(0), // Port A 1-bit Synchronous Set/Reset Input
.SSRB(0), // Port B 1-bit Synchronous Set/Reset Input
.WEA({4{we32}}), // Port A 4-bit Write Enable Input
.WEB({2{we16}}) // Port B 2-bit Write Enable Input
);
RAMB16BWE_S36_S18 #(.INIT_A(36'h000000000),
.INIT_B(18'h00000),
.SIM_COLLISION_CHECK("ALL"), // "NONE", "WARNING_ONLY", "GENERATE_X_ONLY", "ALL"
.SRVAL_A(36'h000000000), // Port A output value upon SSR assertion
.SRVAL_B(18'h00000), // Port B output value upon SSR assertion
.WRITE_MODE_A("WRITE_FIRST"), // WRITE_FIRST, READ_FIRST or NO_CHANGE
.WRITE_MODE_B("WRITE_FIRST") // WRITE_FIRST, READ_FIRST or NO_CHANGE
)
RAMB16BWE_S36_S18_1 (.DOA(do32b), // Port A 32-bit Data Output
.DOB(do16b), // Port B 16-bit Data Output
.DOPA(), // Port A 4-bit Parity Output
.DOPB(), // Port B 2-bit Parity Output
.ADDRA(addr32[8:0]), // Port A 9-bit Address Input
.ADDRB(addr16[9:0]), // Port B 10-bit Address Input
.CLKA(clk32), // Port A 1-bit Clock
.CLKB(clk16), // Port B 1-bit Clock
.DIA(di32), // Port A 32-bit Data Input
.DIB(di16), // Port B 16-bit Data Input
.DIPA(0), // Port A 4-bit parity Input
.DIPB(0), // Port-B 2-bit parity Input
.ENA(en32b), // Port A 1-bit RAM Enable Input
.ENB(en16b), // Port B 1-bit RAM Enable Input
.SSRA(0), // Port A 1-bit Synchronous Set/Reset Input
.SSRB(0), // Port B 1-bit Synchronous Set/Reset Input
.WEA({4{we32}}), // Port A 4-bit Write Enable Input
.WEB({2{we16}}) // Port B 2-bit Write Enable Input
);
endmodule // ram_2port_mixed_width
// ISE 10.1.03 chokes on the following
/*
reg [31:0] ram [(1<<AWIDTH)-1:0];
integer i;
initial
for(i=0;i<512;i=i+1)
ram[i] <= 32'b0;
always @(posedge clk16)
if (en16)
begin
if (we16)
if(addr16[0])
ram[addr16[10:1]][15:0] <= di16;
else
ram[addr16[10:1]][31:16] <= di16;
do16 <= addr16[0] ? ram[addr16[10:1]][15:0] : ram[addr16[10:1]][31:16];
end
always @(posedge clk32)
if (en32)
begin
if (we32)
ram[addr32] <= di32;
do32 <= ram[addr32];
end
endmodule // ram_2port_mixed_width
*/
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